Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region
Earth's ionosphere, a natural plasma, is locally similar to nighttime conditions during asolar eclipse, in that the Moon blocks solar radiation and causes extremely complex andnonlinear processes. It is known that the peak electron density (NmF2) of the F2 layerwith maximum ionization varies no...
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ftyildiztuniv:c457facd-95a5-4bde-8c7c-245a366f326d 2023-09-26T15:23:48+02:00 Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region Can, Zehra Ökten, Mehmet Baran 2022-09-03T00:00:00Z https://avesis.yildiz.edu.tr/publication/details/c457facd-95a5-4bde-8c7c-245a366f326d/oai eng eng c457facd-95a5-4bde-8c7c-245a366f326d https://avesis.yildiz.edu.tr/publication/details/c457facd-95a5-4bde-8c7c-245a366f326d/oai info:eu-repo/semantics/closedAccess info:eu-repo/semantics/conferenceObject 2022 ftyildiztuniv 2023-08-27T21:08:58Z Earth's ionosphere, a natural plasma, is locally similar to nighttime conditions during asolar eclipse, in that the Moon blocks solar radiation and causes extremely complex andnonlinear processes. It is known that the peak electron density (NmF2) of the F2 layerwith maximum ionization varies non-linearly depending on solar activity F10.7 solar flux,geomagnetic field, geographic latitude and longitude, local time and season. In this study,the variation of NmF2 and hmF2 during the annular solar eclipse of 10 June 2021 wasinvestigated theoretically and the results were compared with TR170 URSI codeddigisonde data in Tromsø. Conference Object Tromsø Yıldız Technical University Research Information System Tromsø |
institution |
Open Polar |
collection |
Yıldız Technical University Research Information System |
op_collection_id |
ftyildiztuniv |
language |
English |
description |
Earth's ionosphere, a natural plasma, is locally similar to nighttime conditions during asolar eclipse, in that the Moon blocks solar radiation and causes extremely complex andnonlinear processes. It is known that the peak electron density (NmF2) of the F2 layerwith maximum ionization varies non-linearly depending on solar activity F10.7 solar flux,geomagnetic field, geographic latitude and longitude, local time and season. In this study,the variation of NmF2 and hmF2 during the annular solar eclipse of 10 June 2021 wasinvestigated theoretically and the results were compared with TR170 URSI codeddigisonde data in Tromsø. |
format |
Conference Object |
author |
Can, Zehra Ökten, Mehmet Baran |
spellingShingle |
Can, Zehra Ökten, Mehmet Baran Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region |
author_facet |
Can, Zehra Ökten, Mehmet Baran |
author_sort |
Can, Zehra |
title |
Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region |
title_short |
Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region |
title_full |
Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region |
title_fullStr |
Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region |
title_full_unstemmed |
Nonlinear Effects of Solar Eclipses on the Ionospheric F2 Region |
title_sort |
nonlinear effects of solar eclipses on the ionospheric f2 region |
publishDate |
2022 |
url |
https://avesis.yildiz.edu.tr/publication/details/c457facd-95a5-4bde-8c7c-245a366f326d/oai |
geographic |
Tromsø |
geographic_facet |
Tromsø |
genre |
Tromsø |
genre_facet |
Tromsø |
op_relation |
c457facd-95a5-4bde-8c7c-245a366f326d https://avesis.yildiz.edu.tr/publication/details/c457facd-95a5-4bde-8c7c-245a366f326d/oai |
op_rights |
info:eu-repo/semantics/closedAccess |
_version_ |
1778150118443188224 |